Coaxing unreactive sites

Abstract

Plasmonic Chemistry\nOptical excitation of localized surface plasmon resonances can confine light and create electromagnetic (EM) “hotspots” that can increase catalytic reaction rates. Sytwu et al. show how optical excited plasmons can also control the location of the active site. A crossed-bar gold-palladium hydride (Au-PdH x ) plasmonic antenna-reactor system localized EM radiation away from the more reactive PdH x tips. Using in situ environmental transmission electron microscopy, the authors show that changing the illumination wavelength and intensity, along with the surrounding hydrogen gas pressure, could shift dehydrogenation away from the sharp PdH x nanorod tips to the flat middle faces.\n\nScience , this issue p. [280][1]\n\n [1]: /lookup/doi/10.1126/science.abd2847